De novo methylation of histone H3K23 by the methyltransferases EHMT1/GLP and EHMT2/G9a

David A. Vinson; Kimberly E. Stephens; Robert N. O’Meally; Shri Bhat; Blair C.R. Dancy; Robert N. Cole; Srinivasan Yegnasubramanian; Sean D. Taverna

doi:10.1186/s13072-022-00468-1

De novo methylation of histone H3K23 by the methyltransferases EHMT1/GLP and EHMT2/G9a

David A. Vinson, Kimberly E. Stephens, Robert N. O’Meally, Shri Bhat, Blair C.R. Dancy, Robert N. Cole, Srinivasan Yegnasubramanian, Sean D. Taverna

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Epigenetic modifications to histone proteins serve an important role in regulating permissive and repressive chromatin states, but despite the identification of many histone PTMs and their perceived role, the epigenetic writers responsible for generating these chromatin signatures are not fully characterized. Here, we report that the canonical histone H3K9 methyltransferases EHMT1/GLP and EHMT2/G9a are capable of catalyzing methylation of histone H3 lysine 23 (H3K23). Our data show that while both enzymes can mono- and di-methylate H3K23, only EHMT1/GLP can tri-methylate H3K23. We also show that pharmacologic inhibition or genetic ablation of EHMT1/GLP and/or EHMT2/G9a leads to decreased H3K23 methylation in mammalian cells. Taken together, this work identifies H3K23 as a new direct methylation target of EHMT1/GLP and EHMT2/G9a, and highlights the differential activity of these enzymes on H3K23 as a substrate.

Original language	English (US)
Article number	36
Journal	Epigenetics and Chromatin
Volume	15
Issue number	1
DOIs	https://doi.org/10.1186/s13072-022-00468-1
State	Published - Dec 2022

Keywords

EHMT1
EHMT2
Epigenetics
G9a
GLP
H3K18 methylation
H3K23 methylation
Histone

ASJC Scopus subject areas

Genetics
Molecular Biology

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10.1186/s13072-022-00468-1

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title = "De novo methylation of histone H3K23 by the methyltransferases EHMT1/GLP and EHMT2/G9a",

abstract = "Epigenetic modifications to histone proteins serve an important role in regulating permissive and repressive chromatin states, but despite the identification of many histone PTMs and their perceived role, the epigenetic writers responsible for generating these chromatin signatures are not fully characterized. Here, we report that the canonical histone H3K9 methyltransferases EHMT1/GLP and EHMT2/G9a are capable of catalyzing methylation of histone H3 lysine 23 (H3K23). Our data show that while both enzymes can mono- and di-methylate H3K23, only EHMT1/GLP can tri-methylate H3K23. We also show that pharmacologic inhibition or genetic ablation of EHMT1/GLP and/or EHMT2/G9a leads to decreased H3K23 methylation in mammalian cells. Taken together, this work identifies H3K23 as a new direct methylation target of EHMT1/GLP and EHMT2/G9a, and highlights the differential activity of these enzymes on H3K23 as a substrate.",

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doi = "10.1186/s13072-022-00468-1",

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AU - Vinson, David A.

AU - Stephens, Kimberly E.

AU - O’Meally, Robert N.

AU - Bhat, Shri

AU - Dancy, Blair C.R.

AU - Cole, Robert N.

AU - Yegnasubramanian, Srinivasan

AU - Taverna, Sean D.

PY - 2022/12

Y1 - 2022/12

N2 - Epigenetic modifications to histone proteins serve an important role in regulating permissive and repressive chromatin states, but despite the identification of many histone PTMs and their perceived role, the epigenetic writers responsible for generating these chromatin signatures are not fully characterized. Here, we report that the canonical histone H3K9 methyltransferases EHMT1/GLP and EHMT2/G9a are capable of catalyzing methylation of histone H3 lysine 23 (H3K23). Our data show that while both enzymes can mono- and di-methylate H3K23, only EHMT1/GLP can tri-methylate H3K23. We also show that pharmacologic inhibition or genetic ablation of EHMT1/GLP and/or EHMT2/G9a leads to decreased H3K23 methylation in mammalian cells. Taken together, this work identifies H3K23 as a new direct methylation target of EHMT1/GLP and EHMT2/G9a, and highlights the differential activity of these enzymes on H3K23 as a substrate.

AB - Epigenetic modifications to histone proteins serve an important role in regulating permissive and repressive chromatin states, but despite the identification of many histone PTMs and their perceived role, the epigenetic writers responsible for generating these chromatin signatures are not fully characterized. Here, we report that the canonical histone H3K9 methyltransferases EHMT1/GLP and EHMT2/G9a are capable of catalyzing methylation of histone H3 lysine 23 (H3K23). Our data show that while both enzymes can mono- and di-methylate H3K23, only EHMT1/GLP can tri-methylate H3K23. We also show that pharmacologic inhibition or genetic ablation of EHMT1/GLP and/or EHMT2/G9a leads to decreased H3K23 methylation in mammalian cells. Taken together, this work identifies H3K23 as a new direct methylation target of EHMT1/GLP and EHMT2/G9a, and highlights the differential activity of these enzymes on H3K23 as a substrate.

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De novo methylation of histone H3K23 by the methyltransferases EHMT1/GLP and EHMT2/G9a

Abstract

Keywords

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